This could be considered the "corollary" to #2. Doing a set of 100 barbell snatches is absurd, as technique breaks down, and the amount of weight an athlete can use is almost too trivial to even call it metabolic RESISTANCE training. Plus, it would likely take about 2-3 minutes to complete, which means that you're getting much more aerobic, even if an athlete is "working hard." My feeling is that you use your work bouts to challenge anaerobic systems, and your recovery period to condition the aerobic energy system. Let's be honest: most strength training enthusiasts care more about the aerobic system for recovery than actual aerobic exercise performance, anyway.
Although many processes are involved in this, your thyroid is one of them. The thyroid is a small gland at the front of the neck that releases hormones that control your metabolic rate and the functions of nearly every cell in the body. Going low calorie is a great way to make you feel cold, tired, constipated and frumpy because your brain uses your thyroid to slow everything down!
From another perspective, hypertension may be categorized as either essential or secondary. Primary (essential) hypertension is diagnosed in the absence of an identifiable secondary cause. Approximately 90-95% of adults with hypertension have primary hypertension, whereas secondary hypertension accounts for around 5-10% of the cases.  However, secondary forms of hypertension, such as primary hyperaldosteronism, account for 20% of resistant hypertension (hypertension in which BP is >140/90 mm Hg despite the use of medications from 3 or more drug classes, 1 of which is a thiazide diuretic).
[Guideline] Skyler JS, Bergenstal R, Bonow RO, et al. Intensive glycemic control and the prevention of cardiovascular events: implications of the ACCORD, ADVANCE, and VA Diabetes Trials: a position statement of the American Diabetes Association and a Scientific Statement of the American College of Cardiology Foundation and the American Heart Association. J Am Coll Cardiol. 2009 Jan 20. 53(3):298-304. [Medline].
Along with the increased hunger and cravings comes the metabolic slow down. This is most impacted by the hormone leptin. Less insulin exposure to the fat cell and a shrinking fat cell means the metabolic hormone leptin is reduced. Low leptin means increased hunger. Low leptin also means decreased activity of the body’s two major metabolic engines, the thyroid and the adrenal glands. So as leptin decreases, your metabolism gets the signal to stop burning energy and to start consuming it.
Type 2 diabetes was also previously referred to as non-insulin dependent diabetes mellitus (NIDDM), or adult-onset diabetes mellitus (AODM). In type 2 diabetes, patients can still produce insulin, but do so relatively inadequately for their body's needs, particularly in the face of insulin resistance as discussed above. In many cases this actually means the pancreas produces larger than normal quantities of insulin. A major feature of type 2 diabetes is a lack of sensitivity to insulin by the cells of the body (particularly fat and muscle cells). http://www.clairekerslake.com/wp-content/uploads/2014/03/ipad_new.png
^ Saiz, Luis Carlos; Gorricho, Javier; Garjón, Javier; Celaya, Mª Concepción; Muruzábal, Lourdes; Malón, Mª del Mar; Montoya, Rodolfo; López, Antonio (2017-10-11). "Blood pressure targets for the treatment of people with hypertension and cardiovascular disease". Cochrane Database of Systematic Reviews. 10: CD010315. doi:10.1002/14651858.cd010315.pub2. PMID 29020435.
Ambulatory blood pressure monitoring can be done by using at-home devices that measure your blood pressure at periodic increments throughout a 24-hour or 48-hour time period. This provides your medical team with an average blood pressure reading that is believed to be more accurate than one taken at the doctor's office. Accumulating evidence supports the reliability of this approach.
Again, the answer to why has already been discovered! We have a 24hr clock in our body, known as the circadian rhythm. This rhythm controls what hormones are released and when, it controls our wake sleep rhythm and when working properly signals what physiological processes happen during the day and at night. When you think about it, it is a pretty simple concept that we should be eating during the day and not eating during our biological night. People who are ‘night owls’ often eat during their biological night and it has been shown that the insulin and glucose response to a meal eaten at night is that of a DIABETIC! I was shocked when I first discovered this! This means that even a ‘healthy’ thin person is predisposed to weight gain and gets stuck in fat storage mode if they eat all night long. This is aggravated in people who are predisposed to insulin resistance and metabolic hormone chaos!
This explains why my attempts at a low fat, high protein, high carb diet left me gaining weight all while eating 1000 calories per day! Those 1000 calories were simply fueling my brain and then getting shuttled into my fat cells. If you are not insulin resistant, then this diet may be just the thing you need to shed some short term pounds (although I never recommend a 1000 calorie diet!- more on that later), but to me it caused metabolic chaos.
Usually, diastolic pressures will mirror systolic pressures, but as people age, the diastolic pressure tends to level out. Then, the form of hypertension that involves primarily the systolic pressure (called isolated systolic hypertension) becomes more common. In general, the greater the blood pressure for extended periods of time, the greater the potential for damage.
What is a normal blood pressure? Blood pressure is essential to life because it forces the blood around the body, delivering all the nutrients it needs. Here, we explain how to take your blood pressure, what the readings mean, and what counts as low, high, and normal. The article also offers some tips on how to maintain healthy blood pressure. Read now https://www.clairekerslake.com/wp-content/uploads/2012/03/chocolate-199x300.jpg
Emerging data suggest an important correlation between metabolic syndrome and risk of stroke.  Each of the components of metabolic syndrome has been associated with elevated stroke risk, and evidence demonstrates a relationship between the collective metabolic syndrome and risk of ischemic stroke.  Metabolic syndrome may also be linked to neuropathy beyond hyperglycemic mechanisms through inflammatory mediators.